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Effective method

Problem-solving procedures with certain characteristics

In metalogic, mathematical logic, and computability theory, an effective method or effective procedure is a finite-time, deterministic procedure for solving a problem from a specific class. An effective method is sometimes also called a mechanical method or procedure.

Definition

Formally, a method is called effective to a specific class of problems when it satisfies the following criteria:

It consists of a finite number of exact, finite instructions.
When it is applied to a problem from its class:
- It always finishes (terminates) after a finite number of steps.
- It always produces a correct answer.
In principle, it can be done by a human without any aids except writing materials.
Its instructions need only to be followed rigorously to succeed. In other words, it requires no ingenuity to succeed.

Optionally, it may also be required that the method never returns a result as if it were an answer when the method is applied to a problem from outside its class. Adding this requirement reduces the set of classes for which there is an effective method.

Algorithms

An effective method for calculating the values of a function is an algorithm. Functions for which an effective method exists are sometimes called effectively calculable.

Computable functions

Several independent efforts to give a formal characterization of effective calculability led to a variety of proposed definitions (general recursive functions, Turing machines, λ-calculus) that later were shown to be equivalent. The notion captured by these definitions is known as recursive or effective computability.

The Church–Turing thesis states that the two notions coincide: any number-theoretic function that is effectively calculable is recursively computable. As this is not a mathematical statement, it cannot be proven by a mathematical proof.

References

S. C. Kleene (1967), Mathematical logic. Reprinted, Dover, 2002, , pp. 233 ff., esp. p. 231.

References

{{Hunter 1996
Whether or not a process with random interior processes (not including the input) is an algorithm is debatable. Rogers opines that: "a computation is carried out in a discrete stepwise fashion, without the use of continuous methods or analog devices ... carried forward deterministically, without resort to random methods or devices, e.g., dice" (Rogers 1987:2).
(1980). "Church's Thesis and the Principles for Mechanisms". The Kleene Symposium.
Copeland, B.J.. (June 2000). "The Turing-Church Thesis". Turing Archive for the History of Computing.
The Cambridge Dictionary of Philosophy, ''effective procedure''

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metalogic computability-theory theory-of-computation

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